Improvements in Off Design Aeroengine Performance Prediction Using Analytic Compressor Map Interpolation

Compressor map interpolation is usually performed through the introduction of auxiliary coordinates (β). In this paper, a new analytical bivariate β function definition to be used in compressor map interpolation is studied. The function has user-defined parameters that must be adjusted to properly f...

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Veröffentlicht in:	International journal of turbo & jet-engines 2012-06, Vol.29 (2), p.69-77
Hauptverfasser:	Mist’e, Gianluigi Alberto, Benini, Ernesto
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Sprache:	eng
Schlagworte:	Compressor map generalized compressor maps interpolation
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container_title	International journal of turbo & jet-engines
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creator	Mist’e, Gianluigi Alberto Benini, Ernesto
description	Compressor map interpolation is usually performed through the introduction of auxiliary coordinates (β). In this paper, a new analytical bivariate β function definition to be used in compressor map interpolation is studied. The function has user-defined parameters that must be adjusted to properly fit to a single map. The analytical nature of β allows for rapid calculations of the interpolation error estimation, which can be used as a quantitative measure of interpolation accuracy and also as a valid tool to compare traditional β function interpolation with new approaches (artificial neural networks, genetic algorithms, etc.). The quality of the method is analyzed by comparing the error output to the one of a well-known state-of-the-art methodology. This comparison is carried out for two different types of compressor and, in both cases, the error output using the method presented in this paper is found to be consistently lower. Moreover, an optimization routine able to locally minimize the interpolation error by shape variation of the β function is implemented. Further optimization introducing other important criteria is discussed.
doi_str_mv	10.1515/tjj-2012-0012
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subjects	Compressor map generalized compressor maps interpolation
title	Improvements in Off Design Aeroengine Performance Prediction Using Analytic Compressor Map Interpolation
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